What is the difference between a quarter dome and a half dome mirror?

A quarter dome covers one 90-degree corner (one direction of approach). A half dome covers a 180-degree T-intersection or cross-aisle (two directions of approach with a wall on the third). The reflective surface and mounting orientation differ accordingly.

Can I use a dome mirror outdoors?

Most dome mirrors are indoor products because the open hemisphere geometry traps rain, snow, and debris. Covered outdoor spaces (parking garages, loading-dock canopies) can use half and full dome mirrors. Open outdoor blind corners use standard sealed-back convex mirrors instead.

What size half dome do I need for a warehouse cross-aisle?

For a typical 14- to 16-foot warehouse aisle, a 26-inch half dome at 11 feet to mirror center covers the cross-aisle from both directions. Wider aisles or higher mounting heights need 30-inch diameters. The coverage rule is roughly 4 to 7 times the mirror diameter at typical mounting heights.

Where do I mount a full dome mirror at a warehouse intersection?

Mount the full dome ceiling-suspended at the geometric center of the four-way intersection, at 12 to 14 feet to mirror center for forklift sight lines. Use chain or threaded-rod suspension anchored to the load-bearing ceiling structure (joist or beam), not drywall or ceiling tile.

Do dome mirrors meet OSHA warehouse aisle requirements?

OSHA 1910.176(a) and 1910.178(n)(7) reference mirrors as sight-line aids where direct sight lines are blocked, but the standards do not specifically mandate dome mirrors. The standards govern aisle clearance and operator visibility; dome mirrors are a recognized compliance aid where compliance otherwise requires line-of-sight that geometry cannot provide.

Dome vs Quarter Dome vs Half Dome Mirror: Coverage Buyer's Guide

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Dome vs Quarter Dome vs Half Dome Mirror: Choosing the Right Geometry

The "dome" family of safety mirrors solves four-way intersections, T-intersections, and single-corner blind spots with different geometries. Picking the right one is geometry, not preference: a quarter dome at a four-way intersection covers one quadrant and leaves three blind. A full dome at a single blind corner wastes 270 degrees of mirror surface. The decision is which intersection type the mirror serves.

What Is the Difference Between a Quarter, Half, and Full Dome Mirror?

A dome mirror is a hemispherical convex safety mirror, typically used indoors, that covers a 90- to 360-degree field of view depending on its geometry. Quarter dome covers one corner (90 degrees), half dome covers a T-intersection (180 degrees), and full dome covers a four-way intersection (360 degrees). Standard sizes run 18 to 36 inches diameter. Cojo installed a 26-inch half dome at a Salem warehouse cross-aisle in March 2026, mounted at 11 feet to mirror center, after a forklift near-miss had been logged at the cross-aisle the previous quarter.

Quarter Dome Mirror: Single-Corner Coverage

Quarter domes give a wide-angle view at one 90-degree corner. The reflective surface is the bottom-rear quadrant of a hemisphere. They are used:

Indoor warehouse aisle corners where rack rows force a 90-degree turn and one direction of approach is the only concern.
Indoor parking garage corners where a building wall forces a single-direction blind spot.
Retail-store interior corners where two aisles meet in a single 90-degree turn.

Quarter domes are not appropriate for outdoor parking-lot use because the open quadrant of the hemisphere collects rain, debris, and snow. They are not appropriate for any intersection where two or more directions of approach matter -- they will leave the other approaches blind.

Standard quarter-dome diameters run 18 to 26 inches. Coverage radius is roughly 4 to 7 times the diameter at typical mounting heights. A 26-inch quarter dome at 10 feet covers a corner reaching about 12 to 18 feet on the approach.

Half Dome Mirror: T-Intersection and Cross-Aisle Coverage

Half domes give a 180-degree view at T-intersections, cross-aisles, and corner-against-wall installations. The reflective surface is half of a hemisphere. They are used:

Warehouse cross-aisle intersections where forklifts approach from two directions and the third direction is a wall or rack-end (the most common warehouse application).
Indoor parking garage corners against a wall where the wall blocks one direction and traffic approaches from two.
Loading dock corner-against-wall installations where the dock wall is the third side.

Standard half-dome diameters run 18 to 30 inches. The 26-inch is the workhorse size for a warehouse cross-aisle with 14- to 16-foot aisle width. Mounting is wall-against; the flat back of the half hemisphere mounts flush to the wall, with the convex curve facing into the intersection.

Full Dome Mirror: 360-Degree Four-Way Intersection Coverage

Full domes give a complete 360-degree view at a four-way intersection where traffic approaches from all directions. The reflective surface is the full hemisphere. They are used:

Indoor warehouse four-way aisle intersections where forklifts cross at right angles from all four directions.
Indoor parking garage center-of-intersection mounts where the intersection is centered in an open garage level.
Retail-store center aisles where shopping carts cross paths at right angles.

Standard full-dome diameters run 24 to 36 inches. Mounting is ceiling-suspended -- the dome hangs from a ceiling-mounted bracket or a chain-suspension kit positioned over the intersection center. Outdoor full-dome installs are uncommon because ceiling-suspension hardware does not exist on most outdoor lot conditions; outdoor four-way coverage typically uses two convex mirrors on opposing pole mounts instead.

Which Geometry Solves Which Problem?

Intersection type	Best mirror	Standard size	Mount
Single 90-degree corner (one direction of approach)	Quarter dome	18 in to 26 in	Wall-corner
T-intersection (two directions of approach + wall)	Half dome	18 in to 30 in	Wall-flat
Cross-aisle (two directions of approach + wall)	Half dome	24 in to 30 in	Wall-flat
Four-way intersection (four directions of approach, indoor)	Full dome	24 in to 36 in	Ceiling-suspended
Outdoor blind corner (two directions, no ceiling)	Convex (not dome)	24 in to 36 in	Pole or wall L-bracket

What About Outdoor Applications?

Dome mirrors are largely indoor products because the open hemisphere geometry traps rain, snow, and debris. Outdoor parking-lot blind corners use standard convex mirrors with a fully sealed back and bracket, not dome geometry. The exception is a covered outdoor space (parking garage, loading-dock canopy) where the cover keeps weather off the dome -- in those cases, half and full dome mirrors are appropriate.

Mounting Hardware Comparison

Quarter dome: Two-piece wall-corner bracket. The bracket fits into the inside corner where two walls meet. Lag-bolt or anchor mount. Hardware should be galvanized for any moisture-exposed installation.
Half dome: Flat-back wall mount. Two or four lag-bolt anchor points through the back of the half hemisphere into the wall. Standard aluminum or galvanized steel bracket.
Full dome: Ceiling chain or rod suspension. Three- or four-point chain rig from ceiling joists or a center-mounted threaded rod. Requires structural attachment to load-bearing ceiling structure -- not drywall ceiling tile.

A common installation error is mounting a half dome on the outside corner of a wall instead of the inside corner. The outside-corner mount leaves the convex curve facing nothing useful and the flat back facing the intersection -- which produces no reflection at all.

What Does Each Geometry Cost?

Industry Baseline Range

Geometry	Diameter	Mirror cost	Hardware	Install	Total
Quarter dome	18 in	$90 to $200	$40 to $90	$130 to $280	$260 to $570+
Quarter dome	26 in	$160 to $320	$50 to $110	$150 to $320	$360 to $750+
Half dome	26 in	$200 to $420	$60 to $130	$180 to $400	$440 to $950+
Half dome	30 in	$260 to $520+	$70 to $150	$200 to $480	$530 to $1,150+
Full dome	30 in	$320 to $620+	$130 to $280	$280 to $620+	$730 to $1,520+
Full dome	36 in	$440 to $850+	$160 to $320	$320 to $720+	$920 to $1,890+

These figures reflect published industry averages. Current market pricing varies significantly and actual quotes may fall well outside these ranges based on site-specific conditions, material costs, and project complexity.

Current Market Reality

Full-dome ceiling-suspension installs run higher than the baseline because of the structural-attachment labor (joist or beam locate, anchor placement, chain rigging). Half-dome installations on load-bearing wall surfaces are typically the lowest-labor of the dome family. 2026 mirror pricing has tracked 8 to 14 percent above 2025 on polycarbonate and acrylic feedstock; hardware (galvanized steel, stainless) has held flat to slightly elevated.

Real-World Cojo Install: Salem Warehouse Cross-Aisle

On a 64,000-square-foot Salem warehouse in March 2026, Cojo installed a 26-inch half dome at the main cross-aisle intersection. The aisle was 15 feet wide, with 12-foot rack-row spacing on either side. We used a 26-inch acrylic-faced half dome on a flat-back wall mount at 11 feet to mirror center, mounted to the rack-end frame with U-bolt clamps. The previous-quarter near-miss log dropped to zero reported incidents in the 6 months following installation. OSHA aisle-clearance review at the next inspection cited the cross-aisle as previously deficient, now corrected.

OSHA and Code References for Indoor Dome Mirrors

OSHA 1910.176(a) -- Storage aisle clearance and forklift sight-line requirements; mirrors are referenced as a sight-line aid where direct sight is blocked.
OSHA 1910.144(a)(1) -- Safety color code framework; mirrors complement the marshaling-paint system.
OSHA 1910.178(n)(7) -- Powered industrial truck operator visibility requirements; cited where sight-line aids are evaluated.

None of these mandate a dome mirror; they govern the underlying sight-line conditions that dome mirrors complement.

Match the Geometry to the Intersection

A quarter dome at a four-way intersection leaves three quadrants blind. A full dome at a single blind corner wastes most of its reflective surface. The right call is geometry-first: count the directions of approach, identify the wall conditions, and pick the dome that matches. Cojo specifies and installs dome mirrors as part of warehouse and indoor-parking retrofit packages. Contact Cojo for a sight-line assessment.

Dome vs Quarter Dome vs Half Dome Mirror: Coverage Buyer's Guide

Dome vs Quarter Dome vs Half Dome Mirror: Choosing the Right Geometry

What Is the Difference Between a Quarter, Half, and Full Dome Mirror?

Quarter Dome Mirror: Single-Corner Coverage

Half Dome Mirror: T-Intersection and Cross-Aisle Coverage

Full Dome Mirror: 360-Degree Four-Way Intersection Coverage

Which Geometry Solves Which Problem?

What About Outdoor Applications?

Mounting Hardware Comparison

What Does Each Geometry Cost?

Current Market Reality

Real-World Cojo Install: Salem Warehouse Cross-Aisle

OSHA and Code References for Indoor Dome Mirrors

Match the Geometry to the Intersection

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